Validation study of 24 deepwell microtiterplates to screen libraries of strains in metabolic engineering(MICROBIAL PHYSIOLOGY AND BIOTECHNOLOGY)
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概要
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In this study we validated the use of 24 square deepwell microtiterplates to screen large libraries of metabolically engineered strains by investigating the optimization of succinate production. Wild type E. coli MG1655 and 11 derived mutants were physiologically evaluated by growth in 24 deepwell MTPs and 2L benchtop bioreactors. Growth parameters, product yields and byproduct formation were determined for all mutants. The results show that similar average values and standard deviations for these parameters were obtained. Especially a high correlation was noticed for the acetate byproduct yield and the succinate production rate. For these parameters there was no significant difference for 8 out of 12 strains between MTPs and 2L bioreactors. However a lower maximum growth rate was observed in 2L reactors as opposed to 24 deepwell plates for 9 out of 12 mutants which could be linked to the higher amount of dead cells in the benchtop bioreactors (12% vs. 2% in MTPs). Finally, a cluster-based approach was used to select good producer strains, i.e. strains with a high succinate yield and succinate production rate. Bad, intermediate and good producer strains were clustered in the same groups for MTPs and benchtop bioreactors for 11 out of the 12 investigated strains.
著者
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Foulquie-moreno Maria
Laboratory For Genetics And Microbiology Department Of Applied Biological Sciences Vrije Universitei
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Waegeman Hendrik
Centre of Expertise-Industrial Biotechnology and Biocatalysis, Department of Biochemical and Microbi
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Beauprez Joeri
Centre of Expertise-Industrial Biotechnology and Biocatalysis, Department of Biochemical and Microbi
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Maertens Jo
Centre of Expertise-Industrial Biotechnology and Biocatalysis, Department of Biochemical and Microbi
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De Mey
Centre of Expertise-Industrial Biotechnology and Biocatalysis, Department of Biochemical and Microbi
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Demolder Lieven
Centre of Expertise-Industrial Biotechnology and Biocatalysis, Department of Biochemical and Microbi
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Boon Nico
Laboratory of Microbial Ecology and Technology, Department of Biochemical and Microbial Technology,
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Charlier Daniel
Laboratory for Genetics and Microbiology, Department of Applied Biological Sciences, Vrije Universit
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Soetaert Wim
Centre of Expertise-Industrial Biotechnology and Biocatalysis, Department of Biochemical and Microbi
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Boon Nico
Laboratory Of Microbial Ecology And Technology Department Of Biochemical And Microbial Technology Gh
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Maertens Jo
Centre Of Expertise-industrial Biotechnology And Biocatalysis Department Of Biochemical And Microbia
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Soetaert Wim
Centre Of Expertise-industrial Biotechnology And Biocatalysis Department Of Biochemical And Microbia
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Beauprez Joeri
Centre Of Expertise-industrial Biotechnology And Biocatalysis Department Of Biochemical And Microbia
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Waegeman Hendrik
Centre Of Expertise-industrial Biotechnology And Biocatalysis Department Of Biochemical And Microbia
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De Mey
Centre Of Expertise-industrial Biotechnology And Biocatalysis Department Of Biochemical And Microbia
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Charlier Daniel
Laboratory For Genetics And Microbiology Department Of Applied Biological Sciences Vrije Universitei
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Demolder Lieven
Centre Of Expertise-industrial Biotechnology And Biocatalysis Department Of Biochemical And Microbia
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Boon Nico
Laboratory of Microbial Ecology and Technology (LabMET), Ghent University
関連論文
- Validation study of 24 deepwell microtiterplates to screen libraries of strains in metabolic engineering(MICROBIAL PHYSIOLOGY AND BIOTECHNOLOGY)
- Community Dynamics of Methanotrophic Bacteria during Composting of Organic Matter(ENVIRONMENTAL BIOTECHNOLOGY)